Drug misuse in prisons contributes to increased disruption and violence and negatively impacts prisoner safety, rehabilitation, and recovery. Synthetic cannabinoid receptor agonists (SCRAs), colloquially known as “spice”, are infused into papers and are of particular concern in a prison setting where they are commonly vaped. Methods for the qualitative and quantitative analysis of SCRA infused papers, including impurity profiling, were developed using gas chromatography–mass spectrometry (GC–MS) with qualitative confirmation by ultra high pressure liquid chromatography with photodiode array and quadrupole time of flight mass spectrometry detection (UPLC‐PDA‐QToF‐MS) and applied to 354 individual seized paper samples originating from 168 seizures from three Scottish prisons. Of these samples, 41% (146 samples from 101 seizures) contained at least one SCRA and multiple SCRAs were detected on 23% of these papers. Concentrations ranged from < 0.05–1.17 mg/cm2 paper, representing the first reported quantitative data for SCRA infused papers. An evolution in the SCRAs detected was demonstrated; 5F‐MDMB‐PINACA (5F‐ADB) predominated until late 2018, after which time 5F‐MDMB‐PICA and 4F‐MDMB‐BINACA became increasingly more prevalent, followed by the arrival of MDMB‐4en‐PINACA in June 2019. Concentration mapping data from two seized paper samples demonstrated that SCRA concentrations across larger papers were highly variable (0.47–2.38 mg/cm2 paper) making consistent dosing by users, and representative sampling by laboratory analysts, difficult. Near real‐time qualitative and quantitative information on SCRAs circulating in prisons acts as an early warning system for SCRAs emerging on the wider illicit market, inform the methods used to detect them and limit supply, and provide information to support harm reduction measures.
Synthetic cannabinoid receptor agonists (SCRAs), colloquially known as “spice,” are commonly used in prisons and enter establishments via the mail in the form of infused papers. Many prisons use benchtop ion mobility spectroscopy (IMS) instruments to screen mail and seized materials for the presence of SCRAs and other controlled substances. The selectivity and sensitivity of Rapiscan Itemiser® 3E and Itemiser® 4DN Ion Trap Mobility Spectroscopy™ (ITMS™) systems were evaluated using 21 SCRA reference standards. Some differences in the SCRA reduced mobility (K0) values were observed between this study and those reported previously using IMS detection systems, particularly for cumyl and quinolinyl SCRAs (e.g., 5F‐PB‐22, Cumyl‐4CN‐BINACA, and 5F‐Cumyl‐PEGACLONE), although this was found to have little effect at an operational level. Operational reliability of the systems was evaluated by analyzing 392 paper and card samples with known drug content. ITMS™ system results (e.g., detect or nondetect) were in agreement with gas chromatography–mass spectrometry (GC–MS) analysis in up to 95% of samples tested. Overall, this study found the ITMS™ systems tested to be effective instruments when deployed for the rapid detection of SCRA‐infused papers. Used effectively and with up‐to‐date substance libraries, they will help reduce the supply of SCRAs into prisons and identify emerging threats as they arise. Several emerging SCRAs (5F‐MPP‐PICA, 5F‐EMB‐PICA, and 4F‐MDMB‐BICA) were detected for the first time in Scottish prisons between May and August 2020 as a result of routine monitoring, and all were detected using the ITMS™ systems tested.
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